Resumen

The potential energy surfaces of the Na(Si 5-n(BH) n) - and Si 5-n(BH) n2- (n = 0-5) systems have been explored in detail. We established that all the global minimum structures of anionic and dianionic systems can be obtained by substitution of one or more silicon atoms of the global minima of NaSi 5- and Si 52- for B-H units. The conservation of the overall structure upon isoelectronic substitution was shown to be due to the preservation of the chemical bonding pattern. Theoretical VDEs were calculated for all of the sodiated Na(Si 5-n(BH) n) - (n = 0-5) systems to facilitate their experimental detection.

abstract = "The potential energy surfaces of the Na(Si 5-n(BH) n) - and Si 5-n(BH) n 2- (n = 0-5) systems have been explored in detail. We established that all the global minimum structures of anionic and dianionic systems can be obtained by substitution of one or more silicon atoms of the global minima of NaSi 5 - and Si 5 2- for B-H units. The conservation of the overall structure upon isoelectronic substitution was shown to be due to the preservation of the chemical bonding pattern. Theoretical VDEs were calculated for all of the sodiated Na(Si 5-n(BH) n) - (n = 0-5) systems to facilitate their experimental detection.",

N2 - The potential energy surfaces of the Na(Si 5-n(BH) n) - and Si 5-n(BH) n
2- (n = 0-5) systems have been explored in detail. We established that all the global minimum structures of anionic and dianionic systems can be obtained by substitution of one or more silicon atoms of the global minima of NaSi 5
- and Si 5
2- for B-H units. The conservation of the overall structure upon isoelectronic substitution was shown to be due to the preservation of the chemical bonding pattern. Theoretical VDEs were calculated for all of the sodiated Na(Si 5-n(BH) n) - (n = 0-5) systems to facilitate their experimental detection.

AB - The potential energy surfaces of the Na(Si 5-n(BH) n) - and Si 5-n(BH) n
2- (n = 0-5) systems have been explored in detail. We established that all the global minimum structures of anionic and dianionic systems can be obtained by substitution of one or more silicon atoms of the global minima of NaSi 5
- and Si 5
2- for B-H units. The conservation of the overall structure upon isoelectronic substitution was shown to be due to the preservation of the chemical bonding pattern. Theoretical VDEs were calculated for all of the sodiated Na(Si 5-n(BH) n) - (n = 0-5) systems to facilitate their experimental detection.